Difference between revisions of "Projects:IntegrityOfFrontoTemporalCircuitry"

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Back to [[NA-MIC_Internal_Collaborations:DiffusionImageAnalysis|NA-MIC Collaborations]], [[DBP1:Dartmouth|Dartmouth DBP 1]], [[DBP1:Harvard|Harvard DBP 1]], [[Engineering:Isomics|Isomics Engineering]]
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__NOTOC__
 
= Integrity of Fronto-Temporal Circuitry in Schizophrenia using Path of Interest Analysis =
 
= Integrity of Fronto-Temporal Circuitry in Schizophrenia using Path of Interest Analysis =
  
Back to [[NA-MIC_Collaborations|NA-MIC_Collaborations]]
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Our Objective is to develop methodology that will permit investigators to specify functional MRI regional of interests (fROI) and determine the optimal white matter pathways between the fROIs based on DTI.
  
'''Objective'''
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= Description =
 
 
To develop methodology that will permit investigators to specify functional MRI regional of interests (fROI) and determine the optimal white matter pathways between the fROIs based on DTI.
 
 
 
'''Progress'''
 
  
 
Working path of interest tool at Dartmouth that is currently being tested further. We've had success on mapping out uncinate fasciculus and arcuate fasciculus in a healthy adult. Next step will be to apply the methodology in a larger sample of subjects to verify reliability within and across subjects.
 
Working path of interest tool at Dartmouth that is currently being tested further. We've had success on mapping out uncinate fasciculus and arcuate fasciculus in a healthy adult. Next step will be to apply the methodology in a larger sample of subjects to verify reliability within and across subjects.
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John West had training session with Dennis Jen on new version of POI algorithm.  Worked together to read new Dartmouth 3T Philips Data.  Further work ongoing to integrate POI into Slicer 3.
 
John West had training session with Dennis Jen on new version of POI algorithm.  Worked together to read new Dartmouth 3T Philips Data.  Further work ongoing to integrate POI into Slicer 3.
  
''References''
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= Key Investigators =
  
'''Key Investigators'''
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* Dartmouth DBP 1: Andrew Saykin, John West, Robert Roth, Laura Flashman
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* Harvard DBP 1: Dennis Jen, Dave Tuch, Josh Snyder, Gordon Kindlmann
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* Isomics Engineering: Steve Pieper
  
* Dartmouth: Andrew Saykin, John West, Robert Roth, Laura Flashman
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= Links =
* Harvard: Dennis Jen, Dave Tuch, Josh Snyder, Steve Pieper, Gordon Kindlmann
 
  
'''Links'''
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* [[AHM_2006:ProjectsDTIPathOfInterest|Path of Interest Algorithm Development]]
  
* [[AHM_2006:ProjectsDTIPathOfInterest|Path of Interest Algorithm Development]]
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[[Category: Schizophrenia]]  [[Category: fMRI]] [[Category:Diffusion MRI]]

Latest revision as of 15:24, 21 August 2009

Home < Projects:IntegrityOfFrontoTemporalCircuitry

Back to NA-MIC Collaborations, Dartmouth DBP 1, Harvard DBP 1, Isomics Engineering

Integrity of Fronto-Temporal Circuitry in Schizophrenia using Path of Interest Analysis

Our Objective is to develop methodology that will permit investigators to specify functional MRI regional of interests (fROI) and determine the optimal white matter pathways between the fROIs based on DTI.

Description

Working path of interest tool at Dartmouth that is currently being tested further. We've had success on mapping out uncinate fasciculus and arcuate fasciculus in a healthy adult. Next step will be to apply the methodology in a larger sample of subjects to verify reliability within and across subjects.

Update from AHM 2007

John West had training session with Dennis Jen on new version of POI algorithm. Worked together to read new Dartmouth 3T Philips Data. Further work ongoing to integrate POI into Slicer 3.

Key Investigators

  • Dartmouth DBP 1: Andrew Saykin, John West, Robert Roth, Laura Flashman
  • Harvard DBP 1: Dennis Jen, Dave Tuch, Josh Snyder, Gordon Kindlmann
  • Isomics Engineering: Steve Pieper

Links